Lighting system

ABSTRACT

A lighting system including a lighting panel, wherein at least one light source, assigned to a narrow side of the lighting panel, is provided for coupling light into the lighting panel. The lighting system also includes a reflector facing a flat side of the lighting panel, wherein the flat side of the lighting panel facing the reflector and/or the reflector and/or an intermediate layer between the reflector and the lighting panel is provided with a surface structure. The surface structure is formed as a line grid made of continuous and intersecting grid lines. According to the lighting system, a high level of homogenization of the light emission from the lighting panel can be achieved in a simple manner. In this way, in particular, greater transmission losses in the edge regions of the lighting panel are prevented.

CROSS-REFERENCE TO RELATED APPLICATION

This application is the U.S. national phase of PCT Application No.PCT/EP2015/050252 filed on Jan. 8, 2015, which claims priority to DEPatent Application No. 20 2014 000 196.0 filed on Jan. 10, 2014, and DEPatent Application No. 20 2014 000 264.9 filed on Jan. 13, 2014, thedisclosures of which are incorporated in their entirety by referenceherein.

TECHNICAL FIELD

The present invention relates to a lighting device comprising a lightingpanel, at least one light source, assigned to a narrow side of thelighting panel, for coupling light into the lighting panel, and areflector facing a flat side of the lighting panel, wherein the flatside of the lighting panel facing the reflector and/or the reflector isprovided with a surface structure.

PRIOR ART

Such lighting devices can be used in buildings or in outdoor spaces andcan serve as room illumination, decoration element or design element,with other uses however also being conceivable. In particular, suchlighting devices can serve as a structural and/or decoration element ofgaming and/or entertainment devices, such as casino machines or otheroperating terminals.

In order to achieve a high luminosity without a blinding effect, thelight emitted in such lighting devices by the at least one lightsource—for example an LED band or an LED arrangement—is coupled on thenarrow side into a relatively large-area lighting panel and emitted byway of the flat side thereof in an at least partly distributed manner.In order to obtain a uniform light distribution in the lighting paneldespite the narrow-side light feed, one flat side of the lighting panelcan be provided with a light-scattering or light-refractive surfacestructure, which e.g. can be embodied in the form of printing on thesurface. In particular, such a surface structure can be provided inconjunction with a reflector facing the aforementioned flat side of thelighting panel, said reflector reflecting light emerging out of thelighting panel from the aforementioned flat side into the lighting panelor onto the flat side thereof such that the light passes through theaforementioned surface structure at least twice and, to this extent, isscattered multiple times at the surface structure. The light reflectedinto the lighting panel by the reflector can emerge from the flat sideof the lighting panel lying opposite to the reflector.

A lighting device of the aforementioned type is known from the documentUS 2012/0287631A1, according to which a lighting panel in the form of anacrylic panel is also covered a rear side by a reflector panel, whereinthe flat side facing the reflector of the aforementioned panel isprovided with a cloud-shaped surface structure in the form of inkprinting. The aforementioned cloud-shaped surface structure should inthis case have an ever decreasing degree of filling—i.e., so to speak, areducing cloud density—with increasing distance from the light sourcearranged on the narrow side. From such a changing filling density of thesurface structure, the aforementioned document expects light emission orlight transmission, uniform overall over the flat side, into an emissionpanel placed on the front side in front of the aforementioned acrylicpanel.

However, what was found in practice is that the brilliance of theemitted light and the luminosity of the lighting panel are relativelyrestricted in this known lighting device and, overall, there isrelatively diffuse emission. The efficiency, particularly in the edgeregions of the lighting panel, is impaired as a result of the surfaceprinting becoming ever denser toward the light sources.

SUMMARY OF THE INVENTION

Proceeding therefrom, the present invention is based on the object ofdeveloping an improved lighting device of the aforementioned type, whichavoids the disadvantages of the prior art and advantageously developsthe latter. In particular, a uniform, brilliant light emission with highluminosity should be achieved by the lighting panel, even with limitedpowers of the light sources. Preferably, illumination to different sidesof the room or a good visibility from different locations should beachieved.

According to the invention, the aforementioned object is achieved by alighting device in accordance with claim 1. Preferred refinements of theinvention are the subject matter of the dependent claims.

Thus, it is proposed to form the surface structure provided betweenreflector and lighting panel no longer in a cloud-shaped manner but inthe form of a line grid made of continuous, crossing lines, said linegrid extending uniformly over the flat side of the lighting panel facingthe reflector and/or the reflector surface. Surprisingly, highequalization of the light emission from the lighting panel can also beachieved by such a simple line grid, as a result of which it is possibleto avoid relatively large transmission losses in the edge regions of thelighting panel, as were known in the prior art.

In an advantageous development of the invention, the surface structurecan have a mesh size which remains substantially unchanged over the flatside of the lighting panel and/or an unchanging degree of filling. Thesurface structure can be embodied to have approximately the same densityin edge regions of the panel as in a central region of the lightingpanel and various edge regions of the lighting panel and/or of thereflector facing the lighting panel can have a uniformly dense surfacestructure or a substantially equal grid density or mesh sizeindependently of the arrangement of the light source—for example at onlya narrow side of the lighting panel, or else at opposite narrow sides ora plurality of narrow sides of the lighting panel.

Here, the grid lines of the grid structure can have a straight extent,with this however not being mandatory. By way of example, thecontinuous, crossing grid lines can also have an arcuate or e.g. asinusoidal extent.

In a development of the invention, the surface structure has arelatively thin embodiment and/or the degree of filling of the surfacestructure, i.e. the surface portion of the surface structure relative tothe unstructured surface portion and/or in relation to the overall areaof the lighting panel, is relatively low. This can be achieved by arelatively large mesh size in the case of a relatively small line width.In a development of the invention, the surface structure can have adegree of filling of approximately 1 percent to 25 percent, preferably 5percent to 15 percent, of the overall surface of the flat side of thelighting panel, wherein the aforementioned degree of filling may also beprovided if the surface structure is provided on the reflector surfaceor on an intermediate layer or an intermediate panel, for example in theform of an intermediate film between the aforementioned lighting paneland the aforementioned reflector.

In an advantageous development of the invention, the line grid can havea mesh size of 2 to 3 mm. A line width can be less than 0.5 mm, inparticular approximately in the range from 0.01 to 0.2 mm.

Depending on the line profile, the line grid can have different crossingangles, wherein, preferably, the line profile is embodied in such a waythat the crossing angles remain substantially unchanged over the flatside. In principle, a crossing angle of 90 degrees could be consideredhere, particularly if a straight line profile is provided. However, itwas surprisingly found that a crossing angle deviating from 90 degreesis advantageous, in particular a crossing angle in the range fromapproximately 60 degrees to 80 degrees—or in the range from 100 degreesto 120 degrees when the complementary, larger crossing angle isconsidered. Even more multifaceted light scattering and hence a greaterequalization can be achieved by such an intersection of the grid lines.

Advantageously, the grid lines are arranged at an angle relative to thenarrow side of the lighting panel—or to the plurality of narrow sides ofthe lighting panel—by means of which the light is coupled into thelighting panel from the light source such that the grid lines extendneither parallel nor perpendicular to the aforementioned narrow side.

The grid structure can consist of printing on the panel and/or reflectorsurface, for example by means of suitable ink or printing color,wherein, however, a different embodiment, for example in the form ofsurface etching, engraving or milling or grinding, could also beprovided where necessary.

Here, in an advantageous development of the invention, the grid linesare not black but have a light embodiment, in particular with a whitecolor or a color similar to white. Transmission losses can besignificantly reduced compared to dark or even black printing, but,surprisingly, it is nevertheless possible to obtain a high equalizationof the light distribution.

In principle, the light can be emitted from the lighting panel indifferent ways. In a simple development of the invention, the light canbe emitted directly from the lighting panel into which the light ispreferably coupled from the narrow side, in particular via the flat sideof the lighting panel facing away the from the reflector. Alternatively,or additionally, a further lighting panel and/or emission panel can bedisposed downstream of the aforementioned lighting panel into which thelight is coupled, for example in such a way that the light which emergesfrom the flat side of the first panel facing away from the reflectorenters into the downstream panel, propagates further in this downstreampanel and is emitted by this downstream panel or an even furtherdownstream lighting panel. In particular, such an emission panel can sitwith a flat side on the flat side of the lighting panel facing away fromthe reflector, into which the light is fed, preferably withtwo-dimensional contact between the two panel flat sides or,alternatively, also forming an intermediate gap.

Here, the lighting device can comprise one or more emission surfaces,wherein a panel flat side—of the first or of a downstream panel—facingaway from the reflector, in particular, can serve as emission surfacesuch that the light is emitted substantially across, in particularperpendicular to, the input coupling direction of the light, in whichthe light is coupled into the lighting panel on the narrow side.

Alternatively, or additionally, provision can also be made in adevelopment of the invention of an emission surface which is alignedsubstantially across the flat side of the lighting panel such that thelight is emitted substantially parallel to the plane in which the lightis coupled into the lighting panel on the narrow side. Advantageously,this emission surface with a transverse alignment is arranged offsetfrom the incoming radiation plane such that the light coming from thelight source assumes a step-shaped or stair-shaped propagation oremission path through the lighting panel.

By way of such an embodiment of the lighting panel or arrangement of theemission surface, the lighting device is able, so to speak, to shinearound the corner and illuminate a spatial region to the side of theflat side of the lighting panel.

In an advantageous development of the invention there can be amulti-axis emission or the lighting device can have a plurality of chiefemission directions which are preferably perpendicular to one another.In an advantageous development of the invention, the lighting paneland/or emission panel can have an emission surface formed by the flatside of the panel facing away from the reflector and at least onefurther emission surface formed by a narrow side of the aforementionedlighting panel and/or emission panel.

Advantageously, the aforementioned lighting panel and/or emission panelcan comprise a narrow side which is surrounded by a device housing, withthe light being coupled into the aforementioned panel by way of saidnarrow side, wherein, in particular, the at least one light source, forexample in the form of an LED arrangement, can be arranged between aninner side of the aforementioned device housing and the aforementionedpanel narrow side. In addition to this input coupling narrow side, theaforementioned lighting panel, or a downstream emission panel, cancomprise a further panel narrow side which is not covered by theaforementioned device housing and/or which projects out of the devicehousing and/or which is arranged in an exposed manner such that therecan be light emission via this aforementioned further end side. Theaforementioned further panel narrow side can lie in the plane of theinput coupling narrow side, but advantageously it can also be arrangedoffset in relation to the input coupling narrow side in a directionperpendicular to the panel flat side such that an overall stair-shapedor step-shaped light course emerges through the panel or the panelsbetween the light source and the aforementioned exit narrow side.

The lighting device can have various forms and embodiments. In anadvantageous development of the invention, the lighting device can beembodied as a preferably arcuate portal in the style of a gate, whichspans a clear space and/or has a self-supporting embodiment. The portalcan have a floor contact area or feet and can be able to be put upfreely on the floor in a self-supporting manner. Alternatively, oradditionally, the portal can be connected to a structure to be spanned,for example a gaming table, or anchored thereon.

Advantageously, the portal can have a modular design and be assemblablefrom a plurality of portal parts, in particular straight base parts andat least one bent and/or kinked connection part, wherein the portalparts are preferably contoured in such a way that the portal parts canbe brought into holding engagement with one another in an interlockingmanner, in particular are pluggable into one another, such that theportal parts together form a stiff portal structure.

At least one display device for displaying information can be arrangedon the portal, preferably in the region of a portal top or upperrestriction region, wherein, for example, two screens aligned towardopposite sides can be provided. The display device can be fastened tothe portal or mounted at a different position.

Advantageously, the portal can be used to span a gaming and/orentertainment machine such as a gaming table in a casino or gamingestablishment, or else for spanning other structures to be highlighted,such as delivery tables in warehouses, or else it can be used outdoors.

BRIEF DESCRIPTION OF THE DRAWINGS

Below, the invention will be explained in more detail on the basis of apreferred exemplary embodiment and associated drawings. In the drawings:

FIG. 1 shows a cross section through a lighting device along the lineA-A in FIG. 4 according to an advantageous embodiment of the invention,said cross section showing the arrangement of a lighting panel in adevice housing and the assignment of the light source to the lightingpanel, and showing the arrangement of a reflector at a panel rear side,

FIG. 2 shows a perspective plan view on the flat side of the lightingpanel from FIG. 1, provided with a grid surface structure, saidperspective plan view showing the line grid made of continuous, crossinggrid lines,

FIG. 3 shows a frontal plan view of the line grid of the lighting panelfrom FIG. 2, said frontal plan view elucidating the mesh size and linewidth,

FIG. 4 shows a side view of the overall arcuate lighting device and thearrangement thereof over a gaming table,

FIG. 5 shows a lateral plan view of the lighting device from FIG. 4,

FIG. 6 shows a perspective side view of a post-shaped portal base partof the lighting portal from FIGS. 4 and 5,

FIG. 7 shows a perspective side view of an arcuate portal base part ofthe lighting portal from FIGS. 4 and 5, which can be assembled with thepost-shaped portal base part from FIG. 6, and

FIG. 8 shows a sectional view of a portal part from FIG. 6 or 7, whichshows the integration of the lighting device functional components intothe portal and the arrangement thereof in relation to one another.

IMPLEMENTING THE INVENTION

As shown in FIGS. 4 and 5, the lighting device 1 can be embodied in theform of a lighting arc or lighting portal which can arc in the style ofa doorframe or in the style of a doorway arch over a gaming table 12,for example in the form of a roulette table, or a different gaming orentertainment machine, or which can span a clear space 28. Here, thelighting device 1 can have a—loosely speaking—rectangular or box-shapedcross section, the flat sides of which extend to the outer sides andinner sides of the aforementioned lighting arc and the narrow sides ofwhich can extend in the passage direction of the lighting arc. However,it is understood that the lighting device can also have differentcontouring and different geometries.

As shown by FIGS. 4 to 7, the gate or the portal 27, into which thelighting device 1 is integrated, can have a modular design and beassemblable from a plurality of portal parts, in particular straightbase parts 27 a and 27 d and at least one, or a plurality of, bentand/or kinked connection parts 27 b and 27 c, wherein the portal parts27 a-d are preferably contoured in such a way that the portal parts 27a-d can be brought into holding engagement with one another in aninterlocking manner, in particular are pluggable into one another, suchthat the portal parts 27 a-d together form a stiff portal structure.

As FIGS. 1 to 3 show, the gate-shaped lighting device can comprise aplate-shaped, in particular plane, lighting panel 2 which can bearranged in a preferably box-shaped device housing 3. As shown in FIG.1, the device housing 3 can surround the narrow sides 13 and 14 of theaforementioned lighting panel 2 in particular and also cover a rear sideor a rear-side flat side 8 with a housing wall 15.

As shown with a dashed representation in FIG. 1, two such lightingpanels 2 can be integrated into the device housing 3, which lightingpanels can advantageously be aligned toward opposite sides. If thelighting device 1 is embodied in the form of a lighting arc or lightingportal, as is shown in FIGS. 4 and 5, the aforementioned lighting panels2 can be oriented toward the end sides of the lighting arc.

A light source 7 in the form of an LED band or another LED arrangementcan be assigned to the aforementioned narrow sides 13 and 14 of thelighting panel 2 such that the light source 7 radiates light into atleast one of the aforementioned narrow sides 13 and 14 such that thelight is coupled into the lighting panel. In particular, the lightsource 7 can be arranged directly opposite to the aforementioned narrowside 13 or 14, for example be fastened to the inner side of the devicehousing 3.

A reflector 5 is assigned to a flat side 8 of the lighting panel 2facing the housing interior, said reflector capturing light emergingfrom the aforementioned flat side 8 and reflecting it into the lightingpanel 2. The aforementioned reflector 5 can likewise have a panel-shapedor plate-shaped, in particular plane, embodiment and can sit directly onthe aforementioned flat side 8 of the lighting panel 2 or be arrangedwith a slit-shaped distance therefrom. By way of example, the reflector5 can form a reflector panel or it can be applied onto the flat side 8in the form of a reflector film or reflector coating.

As FIGS. 2 and 3 show, a surface structure 6 embodied as a line grid isprovided on the flat side 8 of the lighting panel 2 facing the reflector5, which line grid can consist of continuous, crossing grid lines 9which may be printed onto the lighting panel 2, for example in the formof an ink or colored print. Advantageously, the aforementioned gridlines 9 or the surface structure 6 is/are embodied in white or a colorwhich is similar to white or very light.

As FIGS. 2 and 3 show, the grid lines 9 can have a straight profile andintersect under a crossing angle of approximately 60 to 80 degrees. Thedegree of filling of the surface structure 6 is advantageouslyrelatively low, in particular embodied in the range set forth at theoutset. By way of example, this can be obtained by the ratio, visible inthe figures, of a relatively large mesh size to a relatively thin linewidth. Advantageously, the mesh size can be in the range of a couplemillimeters, e.g. 2 to 3 mm, while the line width can be only a fractionof a millimeter, for example in the range from 0.05 to 0.5 mm.

Advantageously, the mesh size can have an unchanging mesh size and/or anunchanging degree of filling over the whole area of the lighting panel 2or the whole lighting panel portion provided with the surface structure6, i.e. the density of the grid structure substantially does not changeover the extent of the lighting panel 2.

By way of the aforementioned surface structure 6, the light, which wantsto emerge from the lighting panel 2 via the flat side 8 toward thereflector 5 or which is reflected by the reflector 5 into the lightingpanel 2, can be scattered and accordingly equalized.

FIG. 1 shows a light source 7 on only one narrow side 13 of the lightingpanel 2; however, provision can also be made of light sources 7 at aplurality of narrow sides. The narrow sides within the device housing 3not provided with light sources 7 can have a mirrored embodiment so asto avoid transmission losses here.

The equalized light can emerge from the lighting panel at the flat sideof the lighting panel 2 lying opposite the reflector 5, as elucidated bythe arrows 25 in FIG. 1, or it can enter into a downstream emissionpanel 4, which is, in particular, placed onto the lighting panel 2, saidemission panel 4 having emission surfaces not surrounded in front of thedevice housing 3. Here, in particular, a flat side 16 of the lightingpanel 2 and/or a flat side 26 of the aforementioned emission panel 4which is distant from the reflector 5 can serve as an emission surface.The light emission from said flat side 26 is elucidated by the arrows21. Alternatively, or additionally, narrow sides 17 and 18 of theemission panel 4 can form light exit or emission surfaces, which canextend across, or approximately perpendicular to, the surface-structuredflat side 8 of the lighting panel 2 and which can be arranged offset inrelation to the light entrance narrow side such that the light emittedby the light sources 7 can, so to speak, be emitted around the cornerthrough the lighting panel 2 and the emission panel 4, as elucidated byarrows 22 and 23 in FIG. 1.

The beam path 19 through the lighting panel 2 and emission panel 4 canhave stair-shaped contouring, if the chief input radiation direction andthe corresponding chief emission direction are considered, cf. FIG. 1.

The lighting panel 2, the emission panel 4 and/or the reflector panel 5can consist of various materials, for example a light-transmissiveplastic such as Plexiglas or glass in each case, wherein the reflectorpanel 5 may have a reflecting or mirroring coating. In particular, thelighting panel 2 can be embodied as scattering Plexiglas, the emissionpanel 4 as light Plexiglas and/or the reflector panel 5 as mirroringPlexiglas.

The lighting panel 2, the emission panel 4 and/or the reflector panel 5can be securely connected to one another and/or joined on one anotherunder mutual bearing pressure, for example held on one another by way ofscrews or other connecting elements such as rivets, pins or the like,cf. FIG. 8. Advantageously, the lighting panel 2, the emission panel 4and the reflector panel 5 can form a pre-assemblable assemblage and beinstalled together.

As FIG. 1 and FIG. 5 show, stop elements 20 can be attached to theemission surface of the emission panel 4, in particular on the flat sidethereof, said stop elements covering part of the emission surface andpreventing light emergence there. In particular, the aforementioned stopelements 20 can have a mirrored or at least strongly reflectingembodiment, for example in the form of a chrome-plated or polished metalsurface.

As FIGS. 4 and 5 show, the lighting device 1 can be combined with adisplay device, for example in the form of a screen 24, in particular aflat screen or the like. By way of example, such a screen 24 can bearranged in an upper and/or easily visible region, in particular in theregion of the culmination point of the lighting arc, wherein the screen24 can be mounted on the lighting device 1 or else separately therefrom.

The invention claimed is:
 1. A lighting system comprising: a pluralityof lighting devices each comprising a lighting panel, at least one lightsource, assigned to a narrow side of the lighting panel, for couplinglight into the lighting panel, and a reflector panel facing a flat sideof the lighting panel, wherein the flat side of the lighting panelfacing the reflector panel or an intermediate layer between thereflector panel and the lighting panel is provided with a surfacestructure, wherein the surface structure is embodied as a line grid madeof continuous, crossing grid lines, and an arc structure of a modulardesign, assemblable from a plurality of modular arc parts, includingstraight base parts, arcuate parts and at least one connection part,wherein the arc parts are contoured in such a way that they can bebrought into holding engagement with one another in an interlockingmanner, wherein the plurality of lighting devices are affixed to the arcstructure.
 2. The lighting device as claimed in claim 1, wherein thesurface structure has a mesh size which remains unchanged over the flatside of the lighting panel and/or an unchanging degree of filling. 3.The lighting device as claimed in claim 1, wherein the surface structurehas a degree of filling of 3 percent to 25 percent, of the overallsurface of the flat side of the lighting panel.
 4. The lighting deviceas claimed in claim 1, wherein the surface structure has a mesh size inthe range from 2 to 3 mm.
 5. The lighting device as claimed in claim 1,wherein the grid lines have a line width of less than 0.5 mm.
 6. Thelighting device as claimed in claim 1, wherein the grid lines have astraight extent.
 7. The lighting device as claimed in claim 1, whereinthe grid lines cross at a crossing angle of 60 degrees to 80 degrees. 8.The lighting device as claimed in claim 1, wherein the grid lines have awhite embodiment.
 9. The lighting device as claimed in claim 1, whereinthe grid lines extend inclined at an acute angle in relation to the atleast one narrow side, so that the light from the light source iscoupleable into the lighting panel.
 10. The lighting device as claimedin claim 1, further comprising an emission panel affixed to a side ofthe lighting panel opposite the reflector panel, the emission panel havea flat light exit face.
 11. The lighting device as claimed in claim 10,wherein a multi-axis emission is provided and the lighting device has aplurality of chief emission directions, wherein, a first chief emissiondirection is aligned perpendicular to the flat side of the lightingpanel and a further secondary emission direction is alignedsubstantially parallel to the flat side of the lighting panel.
 12. Thelighting device as claimed in claim 10, wherein the lighting panel orthe emission panel has a panel narrow side, which forms a light exitand/or emission surface and which is arranged in an exposed mannerrelative to a housing in such a way that light is emittable to thesurroundings of the housing.
 13. The lighting device as claimed in claim10, wherein the emission panel narrow side forming a emission surface isarranged offset with respect to the lighting panel narrow side so thatlight is coupleable into the emission panel, in a directionperpendicular to the flat side of the lighting panel.
 14. The lightingdevice as claimed in claim 10, wherein the light from the at least onelight source has, at least in part, a stair or step-shaped light paththrough the lighting panel or the emission panel.
 15. The lightingdevice as claimed in claim 1, further comprising an emission panelaffixed to a side of the lighting panel opposite the reflector panel,the emission panel have a flat light exit face and a narrow side edge,extending across along the edge of the flat light exit face forming alight emission surface.
 16. The lighting device as claimed in claim 1,wherein the lighting panel is surrounded at least in part by a devicehousing, said device housing covering the lighting panel narrow side, sothat the light from the at least one light source is coupleable into thelighting panel, wherein the at least one light source is arrangedbetween an inner side of the device housing and the lighting panelnarrow side.
 17. A lighting system comprising: a plurality of lightingdevices each comprising: a lighting panel, at least one light source,assigned to a narrow side of the lighting panel, for coupling light intothe lighting panel, and a reflector panel facing a flat side of thelighting panel, wherein the flat side of the lighting panel facing thereflector panel or an intermediate layer between the reflector panel andthe lighting panel is provided with a surface structure, wherein thesurface structure is embodied as a line grid made of continuous,crossing grid lines, an arcuate portal structure of a modular design,which is sized to span a clear space in a self-supporting manor, thearcuate portal structure supporting the plurality of lighting devices,and at least one display device for displaying information affixed onthe arcuate portal in a an arcuate portal top region, the at least onedisplay device having two screens aligned toward opposite sides of thearcuate portal region.
 18. The lighting device as claimed in claim 17,further comprising an emission panel affixed to a side of the lightingpanel opposite the reflector panel, the emission panel have a flat lightexit face and a narrow side edge, extending along the edge of the flatlight exit face forming a light emission surface.
 19. A lighting systemcomprising: a plurality of lighting devices each comprising: a lightingpanel, at least one light source, assigned to a narrow side of thelighting panel, for coupling light into the lighting panel, and areflector panel facing a flat side of the lighting panel, wherein theflat side of the lighting panel facing the reflector panel or anintermediate layer between the reflector panel and the lighting panel isprovided with a surface structure, wherein the surface structure isembodied as a line grid made of continuous, crossing grid lines, an arcstructure, which is sized to span a gaming machine or gaming table in aself-supporting manor, the arc structure supporting the plurality oflighting devices, and at least one gaming table oriented within the arcstructure.